Visualizing media content navigation with unified media devices controlling

ABSTRACT

A method (and a computer-readable medium comprising executable instructions for generating a user interface on a display) are disclosed for controlling a plurality of media objects connected to a network. The method displays a subset of a group of predefined functional interfaces. A functional interface comprises one or more user menus and each user menus is associated with at least one media object. The method forwards a user request to a control server and to receive a response to the user request from the control server. A user request comprises one or more user interactions with the subset of the functional interfaces. The method further comprises updating the subset of the functional interfaces on the display screen.

REFERENCE TO RELATED APPLICATIONS

This application claims a benefit under 35 U.S.C. §119(e) to U.S.Provisional Patent Application No. 61/118,340, filed on Nov. 26, 2008,entitled “VISUALIZING MEDIA CONTENT NAVIGATION WITH UNIFIED MEDIADEVICES CONTROLLING” which is incorporated by reference in its entirety.

COPYRIGHT & TRADEMARK NOTICES

A portion of the disclosure of this patent document contains material,which is subject to copyright protection. The owner has no objection tothe facsimile reproduction by any one of the patent document or thepatent disclosure, as it appears in the Patent and Trademark Officepatent file or records, but otherwise reserves all copyrightswhatsoever.

Certain marks referenced herein may be common law or registeredtrademarks of third parties affiliated or unaffiliated with theapplicant or the assignee. Use of these marks is for providing anenabling disclosure by way of example and shall not be construed tolimit the scope of this invention to material associated with suchmarks.

BACKGROUND

1. Field of Art

The subject matter relates generally to providing media content servicesin a networked environment and, more particularly, to visualization ofmedia content navigation with unified media devices controlling in anetworked environment.

2. Description of the Related Art

One of the emerging technologies is multimedia home networking.Multimedia home networking enables consumers to share audio, video, anddata across multiple media devices (such as televisions, portable mediaplayers, cell phones, and computers) using a secure home network.Several media devices associated with playback of media content can beconnected in a home network. Media content can be delivered to the homenetwork via a variety of networks, such as wired and wireless networksand the Internet. Cable, satellite, optical network set-top boxes(STBs), television (TV) receivers, radio receivers, computers, and othercontent receivers or players can receive media content from variousmedia content sources which are local or remote to the home network.

Remote sources include a media server connected to the World Wide Web,or a broadcast system supporting, for example, cable TV, satellite TV,digital TV, or other sources of audiovisual (AV) content. Local sourcesinclude DVD recorders and players, compact disc (CD) recorders andplayers, analog phonograph record players, analog VCRs, digital videorecorders (DVRs), analog and digital camcorders, digital cameras,computers, MP3 players, and other storage devices that store mediacontent for playback. Receivers or players can be coupled to plasmamonitors, liquid crystal display (LCD) monitors, analog TV monitors,digital picture frames, surround sound systems, speakers, and otherplayback devices to decode and play media content.

Some or all the above systems may be connected in a network environment,such as a home network. For example, in a home network, several TVs, DVDplayers or computers may be connected through a local network thatreceives media content delivered from a remote source. Controlling orscheduling the playback of content on different devices in the networkcan provide a challenge to an end user. Particularly, each device isimplemented to be responsive to control signals generated by a specificcontrol device which is generally provided by the manufacturer of thatdevice. Thus, an end user may have to use several control devices (e.g.,remote controls) to operate and use each receiver or player.

Searching of content in different remote or local sources in the networkcan provide another challenge to an end user. Particularly, some of theplayback devices are very inconvenient for content search (e.g. anInternet content search on a TV screen), lacking a proper input device,while others are being used for content playback. Searching in parallelto content play and view disturbs and interrupts other end users. Thus,an end user may have to use several other devices (e.g., a desk top PC)to search for a specific content while juggling with several controldevices for content display.

Currently existing solutions to the above described challenges arepartial and limited. For example, the existing solutions require endusers to partially operate multiple media devices in one control flow.An end user may define media services on a TV, starts a content searchon a PC, moves the search result (e.g., a streaming video) to aset-up-box connected to the TV, and watches the streaming video on theTV. The limited control for multiple media devices for content search,content preview and content management is impossible, and in other casesinconvenient, because the user generally has to press several differentbuttons to control each device. Further, such control devices are notconfigurable to control the flow of content received by differentreceivers to different players in the network.

Hence, there is, inter alia, a lack of a system and method thatefficiently visualizes media content navigation with unified mediadevices controlling in a networked environment.

SUMMARY

The disclosed embodiments beneficially allow for a user interface deviceand methods that efficiently enhance consumer experience of mediacontent on a variety of playback devices. A graphical user interface(GUI)-based media controller provides an intuitive visualization ofmedia content navigation with unified media devices controlling. TheGUI-based controller allows a user to access the variety of mediacontent from heterogeneous media content providers and to allow the userto navigate the media content via a wide set of media devices.

In accordance with one embodiment, a method is disclosed for controllinga plurality of media objects connected to a network. The method displaysa subset of a group of predefined functional interfaces. A functionalinterface comprises one or more user menus and each user menus isassociated with at least one media object. The method forwards a userrequest to a control server and to receive a response to the userrequest from the control server. A user request comprises one or moreuser interactions with the subset of the functional interfaces. Themethod further comprises updating the subset of the functionalinterfaces on the display screen.

In accordance with another embodiment, a computing system (and method)is configured for controlling a plurality of media objects connected toa network through a control point is disclosed. The system is furtherconfigured for displaying a subset of a group of predefined functionalinterfaces on a display screen of the control point according to aconfiguration (e.g., linear, two-dimensional or three-dimensional). Thesystem is also configured for forwarding a user request to a controlserver. In response to a response to a user request from the controlserver, the system updates the subset of the functional interfaces onthe display screen of the control point based on the response. Thus, auser can navigate media content, search for media resources, discovermedia playback devices and perform other operations which are offered ona variety of electronic devices through a single control point.

In accordance with another embodiment, a computing system (and method)is configured for facilitating controlling of a plurality of electronicdevices connected to a network through a control server is disclosed.The computing system allows the control server to receive a user requestfrom a control point, construct a response to the user request based onthe type of the user action and forward the response to the controlpoint.

The features and advantages described in the specification are not allinclusive and, in particular, many additional features and advantageswill be apparent to one of ordinary skill in the art in view of thedrawings, specification, and claims. Moreover, it should be noted thatthe language used in the specification has been principally selected forreadability and instructional purposes, and may not have been selectedto delineate or circumscribe the disclosed subject matter.

BRIEF DESCRIPTION OF DRAWINGS

The disclosed embodiments have other advantages and features which willbe more readily apparent from the detailed description, the appendedclaims, and the accompanying figures (or drawings). A brief introductionof the figures is below.

FIG. 1 illustrates an exemplary network environment for visualizingmedia content with unified media device controlling, in accordance withone embodiment.

FIG. 2A is a block diagram of a set of functional interfaces in apredefined interface arrangement, in accordance with one embodiment.

FIG. 2B a block diagram of a set of functional interfaces in apredefined interface arrangement after user interaction with thefunctional interfaces, in accordance with one embodiment.

FIG. 2C is a block diagram of a set of functional interfaces in apredefined three-dimensional arrangement, in accordance with oneembodiment.

FIG. 2D is a block diagram of various functional interfaces in apredefined three-dimensional arrangement, in accordance with anotherembodiment.

FIG. 2E is a block diagram of the various functional interfaces in thepredefined three-dimensional arrangement illustrated in FIG. 2D, inaccordance with another embodiment.

FIG. 3A is an exemplary graphical user interface of a control pointporthole to display media content with unified media device controlling,in accordance with one embodiment.

FIG. 3B through FIG. 3D illustrates exemplary graphical user interfaceimplementations of a control point porthole for user interaction withthe exemplary user interfaces, in accordance with one embodiment.

FIGS. 4A through 4D illustrate exemplary graphical user interfaces of acontrol point porthole after user interaction with functional interfacesvia a control server, in accordance with one embodiment.

FIG. 5 is a block diagram of a hardware environment in which a system ofthe present invention operates, in accordance with one embodiment.

FIG. 6 is a block diagram of a software environment in which a system ofthe present invention operates, in accordance with one embodiment.

FIG. 7 is a process of a user interacting with a plurality of functionalinterfaces via a control server, in accordance with one embodiment.

FIG. 8A is a process of a control server to respond to user requests, inaccordance with one embodiment,

FIG. 8B is a process of a control server to respond to a user navigationrequest, in accordance with one embodiment.

FIG. 8C is a process of a control server to respond to a user search formedia content request, in accordance with one embodiment.

FIG. 8D is a process of a control server to respond to a user playbackdevice discovery request, in accordance with one embodiment.

Where feasible, features, elements, and aspects of the invention thatare referenced by the same numerals in different figures represent thesame, equivalent, or similar features, elements, or aspects, inaccordance with one or more embodiments.

DETAILED DESCRIPTION

Reference will now be made in detail to several embodiments, examples ofwhich are illustrated in the accompanying figures. It is noted thatwherever practicable similar or like reference numbers may be used inthe figures and may indicate similar or like functionality. The figuresdepict embodiments of the disclosed system (or method) for purposes ofillustration only. One skilled in the art will readily recognize fromthe following description that alternative embodiments of the structuresand methods illustrated herein may be employed without departing fromthe principles described herein.

FIG. 1 is an exemplary network environment 150 for visualizing mediacontent through a media device or a media application operational on themedia device with unified media device controlling in accordance withone embodiment. The environment 150 comprises a Media over Coax (MOCA)network 151, an Ethernet over power lines network 153, a wired localarea network (WLAN) 155, and a wireless network 157 (e.g., a Wi-Finetwork that conforms to the IEEE 802.11 standard). For ease ofdiscussion, the WLAN 155 will be referenced as an Ethernet connection.The environment 150 also comprises a connection to the Internet 125.Coupled to the Internet 125 may be one or more servers 177 comprisingone or more databases for storing media content.

The environment 150 comprises media devices such as a set-top box (STB)and a digital video recorder (DVR) combination 159 that is coupled viacable to a cable headend and to the MOCA network 151. The STB/DVR player159 is capable of playback of media content and is also a source formedia content, and may act as a media server in a Universal Plug andPlay (UPnP) context. In one embodiment, media devices in the networkenvironment 150 conform to the UPnP standard. An example of a role ofeach media device under the UPnP standard is shown in parentheses inFIG. 1.

The environment 150 also comprises a first STB 161 and a second STB 163that are coupled to the MOCA network 151. Each of these is a mediaplayer in the UPnP context and is coupled to a monitor for viewing mediacontent. The MOCA network 151 is coupled to the Ethernet 155. Coupled tothe Ethernet 155 is a network attached storage device (NAS) 179 forstoring media content. The NAS device 179 can be used as a media serverin the UPnP context, and can be configured to send content for playbackto a playback device in the out-of-band channel.

In one embodiment, the NAS device 179 comprises logic 181 that whenexecuted implements an embodiment of a control server. A control server,for example, may be any device or module for controlling media devicesin network environment 150. A control point, for example, may be anydevice or module connected to a control server that implements a userinterface for controlling media devices in network environment 150. Insome embodiments, the control server and the control point may be thesame device.

Also coupled to the Ethernet 155 is a personal computer (PC) 177 thatmay be configured in the UPnP context to act as at least one of a mediaserver, a media store source configurable to send media content to amedia player, a media player to play content, a control server, or acontrol point, in accordance with one embodiment. The PC 177 may alsocomprise logic 183 that when executed on a processor of the PC 177implements the control server and the control point connected to thecontrol server.

The Ethernet 155 is also coupled to the Internet 125 and the Ethernetover powerlines network 153. A speaker system 175, which acts as a mediaplayer in the UPnP context, is coupled to the Ethernet over powerlinesnetwork 153. Also coupled to the Ethernet 155 is a wireless networkaccess point 185 for the wireless network 157. In one embodiment, thewireless network access point 185 also acts as a switch, router, orgateway for other networks.

The wireless network access point 185 may also be operable as a wirelesscontrol server that acts as a control point in the UPnP context. Awireless control device 169 may communicate with the wireless mediaadapter 185 to control one or more of the devices and locate content inone or another media server. In one embodiment, the wireless mediaadapter 185 includes a processor and a memory for storing logic code 187that when executed on the processor of the wireless media adapter 185implements a control server.

Several portable devices are coupled to the wireless network 157, asshown in FIG. 1. A laptop PC 171 and a wireless portable media player173 (e.g., an audio or video player) are operable to be coupled to theWLAN 155. Each of these may act as a media server, a media player, or acontrol point in the UPnP context. Also coupled to the wireless network157 are portable devices that may be used as control devices. Each ofthe portable devices may be operable to communicate with a controlserver to provide remote control functionality to one or more mediaserver or media player devices or locate and play content. It is notedthat although the examples herein are described in the context of awireless portable media player 173, in alternate embodiments the mediaplayer may be a wired media player.

The portable devices may comprise a voice-over-IP (VoIP) phone 167, atouch screen mobile (or cellular) phone 165, or a hand-held computer 169(e.g., a mobile Internet device (MID)), each including a processingsystem and software to implement media control interface functionality,and other optional components to store and play media content, so thatthe devices 165, 167, and 169 may be operable as at least one or more ofa control point, media server, or a media player, in the context ofUPnP. In some embodiments, remote control functionality may be providedin conjunction with services provided by a control server (e.g.,software running on the media center PC 177).

In one or more embodiments, the network environment 150 may not includeall the above components or may comprise other components. Also, itshould be understood that the systems and methods provided herein areequally applicable to devices that do not conform to the UPnP standard.As provided earlier, a control server may be any device or module forcontrolling media devices in network environment 150, and a controlpoint may be any device or module connected to a control server thatimplements a user interface for controlling media devices in networkenvironment 150.

Efficiently controlling the variety of media devices as described abovein the network environment needs an intuitive and flexible mechanism.The disclosed configuration includes a method and a system forefficiently controlling a variety of media objects. Examples of a mediaobject includes media devices and media content processed by the mediadevices. In one embodiment, media content processing by a media devicecomprises displaying the media content on the media device, controllinginteractions with the media content through one or more applicationsoperational on the media device, and enabling media content navigationin an intuitive and flexible way. Other embodiments can include othermedia content processing operations. The disclosed configurationdescribes a “graphical world” which consists of functional interfaceblocks to implement functionalities such as searching for desiredcontent in one device, deciding when and where to play the content andadding new media devices to the network environment 150.

FIG. 2A and FIG. 2B describe multiple functional interfaces 200 in apredefined interface arrangement in accordance with one embodiment. Thefunctional interfaces 200 in a predefined interface arrangement comprisemultiple functional modules (hereafter referred to as “functionalinterfaces”) for controlling media objects, for example, media devicesand/or media content processed by the media devices in the networkenvironment 150. The functional interfaces may be configured as computerprogram product instructions that are stored in a computer readablestorage medium and executable by a processor of the device with which itis presented and/or interoperates with (including in cases of dividedprocessing). The exemplary functional interfaces include “Service”,“Packages”, “Source”, Search”, “Media”, “Preview”, “Pick”, “Plug”,“Play”, “Set”, “Discovered”, “Support”, “Payment”, “Account” and“Service”.

“Service” interface allows a user to configure his or her serviceprovider's preferences. “Packages” interface describes the predefinedproperties of a media source. “Source” interface provides a list ofaccessible media sources in the network environment 150. “Search”interface describes search filters and search criteria (such as tags orkeywords) for the items in the package of a media source. “Media”interface displays the relevant media content items affected byperforming a search according to the filters and the criteria upon theselected media sources. An item in the “Media” interface can be a simpleitem, such as a picture or a song, or a compound item, such as aplaylist of pictures or a music album. “Preview” interface allows a userto preview the media content of a selected media item. “Pick” interfaceprovides a list of selected media items, each of which is from anaccessible media source. “Plug” interface provides a list of playablemedia items. “Plug” interface may include playlists from different mediasources, of different types and/or in different formats. “Play”interface provides a list of available playback devices and theircorresponding controls. “Set” interface allows a user to configuresettings for media playback devices. “Discovered” interface allows theuser to navigate through a list of all automatically discovered playbackdevices.

The functional interfaces are defined on one or more control servers andinclude internal logic, predefined relations to other functionalinterfaces and a graphical user interface representation that can bedisplayed as blocks, for example. The functional interfaces are arrangedin a predefined linear configuration according to one or more predefinedlogical relationships between the functional interfaces such that asubset of the functional interfaces are displayed on a virtual portholeof the control device in a predefined order (e.g., adjacent to eachother). A user action on a user selected functional interface transmitsa signal to a server that causes the server to perform user requestedaction on the selected functional interface. The action can be donewithin the server and the results transmitted back to the interface or asignal can be sent to the selected functional interface to have theprocessing configuration where the selected functional interface isoperationally perform the action. The user action on the selectedfunctional interface also affects immediate neighboring functionalinterfaces in various dimensions due to the pre-defined logicalrelationships between the functional interfaces. An immediateneighboring functional interface of a selected functional interfacerefers to the functional interfaces immediately adjacent to the selectedfunctional interface in a same plane or in two different planes (e.g.,sharing at least one common axis in an x-y-z coordinate system). Thepre-defined logical relationships between the functional interfaces arefurther described with references to FIGS. 2A, 2B, 2C, 2D and 2E.

Depending on implementation, a control server can be configured to allowa user or a programmer to add additional functional interfaces to theexemplary functional interfaces 200 shown in FIG. 2A, FIG. 2B and FIG.2C. For example, additional functional interfaces can be added to anedge of the predefined configuration or between two existing functionalinterfaces or in a different plane. In one embodiment, the predefinedconfiguration may be one-dimensional and implemented in a lineararrangement. In another embodiment, the predefined configuration can bedefined as a two- or three-dimensional object, suspended in a predefinedplane or space subject to user manipulation.

A virtual porthole can be configured to display one or more functionalinterfaces for controlling media devices in the network environment 150,where different sets of the functional interfaces 200 are configured forcontrolling different functions of media sources or devices in thenetwork environment 150. The virtual porthole provides a displayablearea (view area) of the one or more functional interfaces rendered on ascreen of a device (e.g., a control point). For example, the virtualporthole can be rendered on a display screen of a control device,desirably in form of a graphical user interface (GUI). A virtualporthole may be sized to fit in a portion of the display screen or theentire display screen. That is, depending on implementation, the virtualporthole may be rendered on display screens of various configurations(e.g., linear, two-dimensional and three-dimensional) and sizes (length,width and height). In the following, exemplary virtual portholes aredisclosed in association with a pure GUI implementation. It isnoteworthy, however, that virtual porthole configurations utilizinghardware or a combination of hardware and software (e.g., having hardkeypads, spin wheels, or pointing devices) are also possible. For easeof discussion, the terms of “virtual porthole” and “porthole” are usedinterchangeably from herein and throughout the entire specification.

Referring now to FIG. 2A, FIG. 2A illustrates two virtual portholes(i.e., 210 and 211) configured to display one or more functionalinterfaces 200 in accordance with one embodiment. The virtual porthole(e.g., 210 and 211) is a “window” into a view of a set of one or morefunctional interfaces. The virtual porthole 210, 211 can be configuredto be any length, width, or height for viewing the functional interfacesthat fit within the particular dimensions as defined. In this example,the virtual porthole 210 includes three adjacent functional interfacesSource, Search and Media and the virtual porthole 211 includes the threeadjacent functional interfaces Pick, Plug, and Play. With the virtualporthole 210, a user can search for content in selected sources and keepthe results for a later view. With the virtual porthole 211, a user mayselect, play and control media content.

Based on the predefined functional logic between the functionalinterfaces, a user action in a selected functional interface not onlyaffects the selected functional interface itself, but also affects itsimmediate neighboring functional interfaces. For example, “Source”interface has an immediate neighboring interface “Search” on its righthorizontally. A media source can be selected using a search filter andthe search result for the “Source” interface affects the “Search”functional interface, such as causing the “Search” interface to updateits search filters associated with the user.

In another example, a user can dynamically edit the list of items in the“Plug” interface, such as queuing a media item from the “Pick” interfaceinto the end of a current list of items, or changing the playback orderof the media items. In yet another example, by making a connectionbetween a media item (simple or compound) from the “Plug” interface andplayback device in the “Play” interface, such as drag-and-dropping themedia item selected from the “Plug” interface to the “Play” interface,the selected media item starts playing on the connected playback device.

In one embodiment, the virtual porthole 211 displays the currentfunctional interfaces of interest to a user and the virtual porthole 210is hidden from the view. In response to a user interaction with thecurrent display, e.g., moving away four functional interfaces to theleft of the current display (i.e., the virtual porthole 211), the newvirtual porthole 210 displays the Source, Search, and Media interfacesinstead of the Pick, Plug, and Play interfaces.

The user can navigate through the functional interfaces 200 in a varietyof ways. For example, depending on the virtual porthole size, the usercan navigate one or more functional interfaces at a time, a portion of afunctional interface at a time, or a combination thereof. FIG. 2B showsa virtual porthole 213 that displays two adjacent functional interfacesPick and Plug, and a virtual porthole 212 that displays two adjacentfunctional interfaces Preview and Pick. The virtual porthole 212 isdisplayed in response to user moving one functional interface to theleft from the virtual porthole 213. After the move, the new virtualporthole 212 displays Preview and Pick interfaces instead of Pick andPlug interfaces.

In one embodiment, functional interfaces associated with more frequentlyused functions or operations (i.e., process flows) may be displayedcloser to a predefined reference point (e.g., a central position) of avirtual porthole, and functional interfaces associated with lessfrequently used process flows may be displayed further away from thepredefined reference point. In another embodiment, functional interfacesassociated with less advanced process flows may be displayed closer tothe predefined reference point of the virtual porthole, and functionalinterfaces associated with more advanced process flows may be displayedfurther away from the predefined reference point.

FIG. 2C illustrates two virtual portholes (i.e., 210 and 211) configuredto display one or more functional interfaces 200 in a predefinedthree-dimensional arrangement in accordance with one embodiment. Thethree dimensions are indicated by X-, Y- and Z-coordinates and theircorresponding dash-lined coordinates X′, Y′ and Z′. When the controlpoint is initialized, the virtual porthole 210 (“Pick”, “Plug” and“Play”) is presented as a set of default functional interface around thecenter of the three-dimensional space, while the virtual porthole 211(“Source”, “Search” and “Media”) for more advanced users is displayed ina space away from the center of the three-dimensional space. Otherembodiments may have different configurations of the functionalinterface 200 in the three-dimensional space illustrated by FIG. 2C.

Depending on implementation and the size of a virtual porthole's displayscreen, a limited number (e.g., a subset) of functional interfaces maybe displayed in the virtual porthole. That is, the virtual porthole 210may display one or more functional interfaces, a portion of a functionalinterface, or a combination thereof. In FIG. 2A, for example, threefunctional interfaces (e.g., Source, Search, and Media) are displayed inthe porthole 210, while other functional interfaces (e.g., Preview,Pick, Plug, Play and Set) are hidden from view. As provided in furtherdetail below, a user may interact with the control point to perform anaction provided by the displayed functional interfaces or navigate froma set of functional interfaces to another.

FIG. 2D illustrates one virtual porthole 214 configured to display oneor more functional interfaces 200 in a predefined three-dimensionalarrangement in accordance with one embodiment. In the embodimentillustrated in FIG. 2D, assuming the three-dimension space using anx-y-z coordinate system, the “Support” functional interface 251 in oneplane is adjacent to the “Play”, “Set” and “Discovered” functionalinterfaces in another plane and the “Support” functional interface 251shares an axis in the x-y-z coordinate system. The “Payments”, 252,“Accounts”, 253 and “Service”, 254 are two-dimensionally adjusted alonganother axis in the x-y-z coordinate system. The “Payments”, 252,“Accounts”, 253 and “Service”, 254 can be in two different planes. The“Services” functional interface is also adjacent to the “Packages”functional interface and to the “Sources” functional interface along theshared axis, and the “Payments” functional interface is also adjacent tothe “Media”, “Preview”, Pick”, and “Plug” functional interfaces alongthe shared axis. For example, a user action on “Play” interface affectsthe “Support” interface because they are immediate neighboringinterfaces although they are in different planes. Similarly, a useraction on the “Payments” interface affects the “Media” interface, the“Account” interface and the “Service” interface.

In another embodiment, after the control point is initialized, thevirtual porthole of “Pick”, “Plug” and “Play” is presented as a set ofdefault functional interface around the center of a three-dimensionalspace, while the virtual porthole 214 (“Play”, “Set” and “Discovered”)is displayed two navigation steps to the right from the center of thesame Z plane after a user navigated to the right. In this example, amore advanced user may now navigate along the Z axis to the “Support”functional interface in the three-dimensional space. Other embodimentsmay have different configurations of the functional interface 200 in thethree-dimensional space illustrated by FIG. 2D.

In the same embodiment, after the control point is initialized, thevirtual porthole “Pick”, “Plug” and “Play” is presented as a set ofdefault functional interface around the center of the three-dimensionalspace. In this example, a more advanced user may now navigate along theY axis to the “media” preview” and Pick” functional interfaces, thenalong the Z axis to a “Preview”, “Payments” and “Account” functionalinterfaces and then along the Y axis to the “Payments”, “Account” and“Service” functional interfaces in the three-dimensional space. Otherembodiments may have different configurations of the functionalinterface 200 in the three-dimensional space illustrated by FIG. 2D.

FIG. 2E is a block diagram of the various functional interfaces in thepredefined three-dimensional arrangement illustrated in FIG. 2D, inaccordance with another embodiment. The functional interfaces 200illustrated in FIG. 2D is displayed in a three-dimensional spacerepresented by a cube. Other embodiments can use other graphical shapessuch as a sphere to describe the three-dimensional space. Adouble-arrowed line along a plane in the embodiment illustrated in FIG.2E indicates the navigation/movement allowed for that plane.

Predefined functional logic among multiple functional interfaces alsoaffects data consistency among the involved functional interfaces. Inone embodiment, the data consistency among multiple functionalinterfaces is constrained by system parameters associated with the mediaobjects to be controlled by a selected functional interface and itsimmediate neighboring functional interfaces.

In one embodiment, the number of the functional interfaces 200 displayedmay be set according to user preference, the device manufacturersettings, the initial device programming or other factors. In anotherembodiment, the number of the functional interfaces 200 displayed may bedetermined automatically by the control point according to size of thedisplay screen, resolution of the display screen, computing capabilitiesof the control point, for example. For instance, if the control point isa 24 inch TV, then a total of five functional interfaces may bedisplayed in a virtual porthole. If, for example, the control point is alimited-size (or compact or handheld) device (e.g., a smart phone orportable media player) with a small display screen size (e.g., 4 to 12centimeters (cm)×4 to 8 cm) or 10 to 30 cm diagonal), a total of twofunctional interfaces may be displayed in the virtual porthole due tothe relatively smaller display screen available thereon.

FIG. 3A through FIG. 3D illustrate a control point device screen P250 todisplay a virtual porthole 210 described above in accordance with oneembodiment on a screen of a media player (e.g., the wireless mediaplayer 173 of FIG. 1). During initialization (e.g., when a control pointdevice is turned on), control server forwards to the control point anumber of functional interfaces 200 to be displayed within a virtualporthole P210 rendered on a display screen of the control point P250 andthe preferred number of relevant items to be displayed based functionalinterfaces. The control point device screen P250, illustrated in FIG.3A, includes a static area P201 and an area for displaying a virtualporthole P210. The virtual porthole P210 is used for a user to view thestatus of one or more functional interfaces 200 on the screen of thewireless media player 173. In another embodiment, the entire controlpoint device screen P250 is used to display the virtual porthole P210 onthe screen of the wireless media player 173.

FIG. 3B illustrates a control point device screen P250 with a virtualporthole P210 that displays Pick P255, Plug P256 and Play P257functional interfaces on the screen of the wireless media player 173.The virtual pothole P210 displays headers P221, P222 and P223 presentingthe relevant functional interfaces names for user convenience. In otherembodiments, the interface headers may not be displayed. A user may alsointeract with input options provided by the control point to navigatefrom one subset of functional interfaces to another subset. For example,a user may navigate by interacting with input options provided on thecontrol point device screen P250, to a first direction P214, or to asecond direction P215 as in FIG. 3B. Advantageously, a predefinednavigation configuration and order that simplifies navigation indifferent directions may be provided.

The number of functional interfaces viewed through a virtual portholeand the number of relevant media content items to be displayed within afunctional interface is a design choice. FIG. 3B and FIG. 3D display acontrol point device screen P250 with same three functional interfacesPick P255, Plug P256 and Play P257, but with different numbers ofrelevant content items in Pick P255 interface. Specifically, the Pickinterface P255 in FIG. 3C includes four items: Abbey Road P231, Channel5 P232, Lost: Season 4 P233, Romantic Nights P234. Due to larger displayscreen size than the one in FIG. 3C, the Pick interface P255 in FIG. 3Dincludes 5 items: the four items of FIG. 3C and an additional item,Hawaii 8/2008 P235. To compensate the smaller display screen illustratedin FIG. 3C, the control point device screen P250 also includes a slidebar P241 with a slider P241S. In another implementation a media contentitem of a functional interface may be presented differently on differentscreen sizes, for example, the Plug interface 256, second item P237 inFIG. 3C includes two buttons record P242 and more P243, while the sameitem from the same Plug interface P256 in FIG. 3D is represented as apure text.

In one implementation, icons may be included in order to representfunctional interfaces items. Icons may include playback device iconsfrom the device manufacture, user selected from a list, a logorepresenting a TV channel, a picture thumbnail or any other graphicrepresentation of an item. For example, as illustrated in FIG. 3C, theLiving room TV P238 has an icon P246 and the items Abbey Road P231 andChannel 5 P232 each has its respective icon P244 and P245. In otherimplementations functional interfaces items may be presented by textonly, for example Media Room P240 in FIG. 3C and FIG. 3D, or acombination.

In different embodiments, the disclosed configuration may be implementedeither entirely in the form of hardware or entirely in the form ofsoftware, or a combination of both hardware and software elements. Forexample, control points and control servers implementing virtualporthole and functional interfaces may be presented largely in terms ofhardware components and software code executed to perform processes thatachieve the results contemplated by the system disclosed herein.

Referring back to FIG. 1, the network environment 150 comprises ahardware environment and a software environment. The hardwareenvironment comprises the machinery and equipments that provide anexecution environment for the software to implement the disclosedconfiguration. The software provides the execution instructions for thehardware as provided below. As provided here, the software elements thatare executed on the illustrated hardware elements are described in termsof specific logical/functional relationships. It should be noted,however, that the respective methods implemented in software may be alsoimplemented in hardware by way of configured and programmed processors,ASICs (application specific integrated circuits), FPGAs (FieldProgrammable Gate Arrays) and DSPs (digital signal processors), forexample.

The software environment is further illustrated in FIG. 6. Softwareenvironment 600 is divided into two major classes comprising systemsoftware 602 and application software 604. The system software 602comprises control programs, such as the operating system (OS) andinformation management systems that instruct the hardware how tofunction and process information.

In one embodiment, a virtual porthole (e.g., the virtual porthole 210 inFIG. 2) and functional interfaces 200 may be implemented on the samehardware, e.g. laptop PC 171, by the system software 602 or theapplication software 604 and executed in one or more hardwareenvironments. In an alternate embodiment, the virtual porthole isimplemented on one device and by the system software 602 or theapplication software 604 and executed in one hardware environment, e.g.,a mobile phone 165, and the functional interfaces 200 is implemented ina different hardware environment computer, e.g. PC 183, by the systemsoftware 602 or the application software 604. The application software604 may comprise but is not limited to, program code, data structures,firmware, resident software, microcode or any other form ofinstructions, information or routine that may be read, analyzed orexecuted by a processor or microcontroller.

In an alternative embodiment, the disclosed configuration can beimplemented as computer program product accessible from acomputer-usable or computer-readable medium providing program code foruse by or in connection with a computer or any instruction executionsystem. For the purposes of this description, a computer-usable orcomputer-readable storage medium can be any apparatus that can contain,store, communicate, propagate or transport the program for use by or inconnection with the instruction execution system, apparatus or device.

The computer-readable storage medium may be an electronic, magnetic,optical, electromagnetic, infrared, or semiconductor system (orapparatus or device) or a propagation medium. Examples of acomputer-readable medium include a semiconductor or solid-state memory,magnetic tape, a removable computer diskette, a random access memory(RAM), a read-only memory (ROM), a rigid magnetic disk and an opticaldisk. Current examples of optical disks include compact disk read onlymemory (CD-ROM), compact disk read/write (CD-R/W) and digital videodisk(DVD).

FIG. 5 illustrates one embodiment of a hardware environment. Anembodiment of the system software 602 and application software 604 maybe implemented as computer software in the form of computer readablecode executed on a data processing system such as hardware environment500 that comprises a processor 502 coupled to one or more computerreadable media or memory elements by way of a system bus 504. Thecomputer readable storage media or the memory elements, for example, maycomprise a local memory 506, a storage media 508, and/or a cache memory510. The processor 502 loads executable code from storage media 508 tolocal memory 506. The cache memory 510 provides temporary storage toreduce the number of times code is loaded from the storage media 508 forexecution.

A user selection device 512 (e.g., keyboard, pointing device, touchscreen, etc.) and a display screen 514 may be coupled to the computingsystem, for example, either directly or through an intervening I/Ocontroller 516. A communication interface unit 518, such as a networkadapter, may be also coupled to the computing system to enable the dataprocessing system to communicate with other data processing systems orremote printers or storage devices through intervening private or publicnetworks. Wired or wireless modems and Ethernet cards are a few of theexemplary types of network adapters.

In one or more embodiments, the hardware environment 500 may not includeall the above components, or may comprise other components foradditional functionality or utility. For example, the hardwareenvironment 500 may be a laptop computer or other portable computingdevice embodied in an embedded system, for example, a personal digitalassistant (PDA), a mobile internet device (MID), a mobile communicationunit (e.g., a wireless phone), or other similar hardware platforms thathave information processing and/or data storage and communicationcapabilities.

In certain embodiments of the system, the communication interface 518communicates with other systems by sending and receiving electrical,electromagnetic or optical signals that carry digital data streamsrepresenting various types of information including program code. Thecommunication may be established by way of a remote network (e.g., theInternet), or alternatively by way of transmission over a carrier wave.

Referring to FIGS. 1, 2A, 5, and 6, the system software 602 and theapplication software 604 may comprise one or more computer programs thatare executed on top of an operating system after being loaded from thestorage media 508 into the local memory 506. In a client-serverarchitecture, the application software 604 may comprise client softwareto implement a control point and server software to implement a controlserver. The control server in one embodiment is local to the controlpoint, for example, in the same physical device. In another embodiment,the control server may be remote to the control point such that theconfiguration includes two or more separate physical devices.

The software environment 600 may also comprise communication software608 for accessing data available over local or remote computing networks(e.g., network environment 150). Further, the software environment 600may comprise a GUI 606 (e.g., virtual porthole P210) for receiving userrequests and data. Please note that the hardware and softwarearchitectures and environments described above are for purposes ofexample, and one or more embodiments may be implemented over any type ofsystem architecture or processing environment.

It should also be understood that the logic code, programs, modules,processes, methods and the order in which the respective steps of eachmethod are performed are purely exemplary. Depending on implementation,the steps may be performed in any order or in parallel, unless indicatedotherwise in the present disclosure. Further, the logic code is notrelated, or limited to any particular programming language, and maycomprise of one or more modules that execute on one or more processorsin a distributed, non-distributed or multiprocessing environment.

A user may interact with input options provided by the control point toperform operations associated with functional interfaces 200. Selectionoperations may be performed by way of user interaction with a singlefunctional interface to select, add, modify, remove, or change the orderof items in the single functional interface. For example, a user caninteract with a source interface comprising media servers and sources(e.g., Netflix, abc.com, Comcast, and iTunes) to select sources fromwhich to retrieve media content.

Media sources are items associated with media devices, or withlocal/remote media libraries or with remote services such as theInternet or a satellite head-end in the network environment 150. Forexample, a cable or satellite broadcasting service (e.g., Comcast, orDish Network) may be associated with the STB/DVR 159 and a media servingservice (e.g., Apple iTunes) may be associated with the wireless mediaplayer 173. In one embodiment, a user may use Source interface to selectfrom one or more local or remote sources. Search interface may be usedto search for content based on search criteria defined by one or moresearch filters and selected media sources. A user may view a list ofsearch results and select content for a later use, using Mediainterface.

A user interacts with a plurality of functional interfaces to establisha logical relationship among two or more functional interfaces. Examplesof user interactions include: adding one or more items from oneinterface to another interface; adding one or more items from oneinterface to one or more items on another interface; connecting one ormore items from one interface to another interface; and connecting oneor more items from one interface to one or more items on anotherinterface.

Generally, control point logic implemented in a control point collectsrequests from a user. A user request represents one or more userinteractions with the functional interfaces. A user request can be asimple command requesting the control server to perform a requestedaction. For example, a user may transmit a request to the control serverto search for particular media content from a content provider. A useralso can transmit a request that represents a sequence of userinteractions with the functional interfaces. For example, a user maytransmit a request that includes a selection of the place to play aselected media content and a command that requests the control server todiscover other playback devices, e.g., Lost: Season 4 (P233) to beplayed on Living Room TV (P238) in FIG. 4C. Exemplary user requestsfurther include navigation requests that changes the functionalinterfaces displayed in a virtual porthole after user moving theporthole in a first or a second direction in a linear functionalinterfaces predefined arrangement. The user requests also includeactivating one or more functional interfaces on the server side, thatreflect the data to be displayed on the display screen of the connectedcontrol point devices.

The control point logic sends the user requests along with operationparameters (e.g., user authentication data, display size and resolutionand etc.) to a control server for processing. In one embodiment, thecontrol point logic immediately sends (or transmits) a user request tothe control server. Other embodiments allow the control point toaccumulate user requests and aggregate multiple user requests into anaggregated user request. The control point sends the aggregated userrequest to the control server for further processing. Once the controlpoint device receives the requested data, e.g., one or more functionalinterfaces, the control point displays the relevant set of functionalinterfaces in the virtual porthole and provides one or more inputoptions to a user for interacting with the virtual porthole.

In one embodiment, during initialization (e.g., when a control point isturned on), the control point establishes a connection with the controlserver and forwards to the control server its size, and resolution,among other parameters for the number of functional interfaces 200 to bedisplayed within a virtual porthole rendered on a display screen of thecontrol point.

In another embodiment, the control point may also forward to a controlserver a user identifier uniquely identifying a user or a category ofusers. Accordingly, a customized set of functional interfaces associatedwith the particular user identifier may be displayed in the virtualporthole. The user identifier may indicate that the user of the controlpoint is a novice user, an advanced user, an under-aged user, or othertype of user, so that certain functionalities or operations are enabledor disabled in the functional interfaces 200. The user identifier may bealso used to provide for some of the functional interfaces, customoptions or menus to a user based on prior user settings or preferences.

Turning now to FIG. 7, FIG. 7 illustrates a process of a userinteracting with a plurality of functional interfaces to establish alogic relationship among two or more functional interfaces via a controlserver. Initially, a control point used by the user collects 702 systemand basic data necessary for communication with the server. The systemand basic data include user authentication data, display size andresolution, processing capabilities (e.g., CPU power and memory size,etc.) of the control point and etc. The control point initializes 704the server communication channel, and sends 706 the authentication dataalong with the screen size and resolution and operation parameters tothe control server.

Following the initialization, the control point receives 708“authentication successful” flag from the control server along with alist of pointers to the available functional interfaces to be displayedin a virtual porthole. The control point requests 710 the data for theset of the functional interfaces from the control server relevant to thedisplay. The control point receives 712 from the control server therequested data and populates the virtual porthole. The control pointwaits 714 for a user interaction with a display device. In response tothe user navigating 716 the porthole to a side of the adjacentfunctional interfaces, the control point requests 710 the data of theadjacent functional interfaces from the control server. In response tothe user performing 718 local operations (e.g., selecting a mediacontent item), the control point collects 722 the operation locally to asequence of operations and requests 710 the data from the control serverfor the local operation. In response to the user changing basic data(e.g., user identification) or finishing a sequence of operations on asubset of the functional interfaces, the control point determines 724whether the next operation is “exit” request from the user. If it is an“exit” operation, the control point ends 726 the operation; otherwise,the control point sends 706 authentication data to the control serverand processes through the receiving of the flag 708 to the end 726.

A control server detects that a user intends to perform an action bymonitoring user interaction with the control point, or being notified bythe control point of a desired user action. The control server performsthe requested logic for each relevant functional interface and updatesinformation stored for one or more functional interfaces, and forwardsupdate information to the control point device, in response to userinteraction. Specifically, upon collecting the basic information andassembling the set of functional interfaces, for each control pointdevice, a control server forwards information to be included in the setof functional interfaces to be displayed on the control point devicevirtual porthole. The information may be managed and stored in a storagedevice on the same device as the control server or in a separate storagedevice remotely accessible by the storage server.

FIG. 8A illustrates a process of a control server to respond to a userrequest in accordance with one embodiment. Initially, the control serverinitializes 802 all relevant data, such as set of available functionalinterfaces, the arrangement and relations among the interfaces,discovered playback devices and media content. In response to acommunication request from a control point, the media server opens 804 acommunication channel for the control point/device and gets the basicinformation (e.g., user authentication data, display size and resolutionof the screen of the control device, etc) from the control point. Thecontrol server updates 806 the functional interfaces as necessary afterinitialization. For each control device that connects to the controlserver, the control server gets 810 an authentication request from thecontrol device. If authentication is successful, the control serversends 812 the client (e.g., the control device) an “authenticationsuccessful” flag along with a list of pointers to the functionalinterfaces visible on the specified user's porthole. The control serverreceives 814 a request for the specific subset of functional interfaces.In response to user identification change 820, the control server gets810 the authentication request and performs the steps afterauthentication (e.g., steps 812-814). In response to a user navigationrequest 816, the control server changes 818 pointers for the visiblefunctional interfaces being displayed on the user's porthole andperforms the steps of 812-814. The control server also performs 822 theother user requests and updates the functional interfaces. In oneembodiment, the control server sends 824 the new subset of functionalinterfaces to the control device. Exemplary user requests processing arefurther explained in conjunction with the descriptions of FIG. 8B-8D.

FIG. 8B illustrates a process of a control server in response to a usernavigation request in accordance with one embodiment. Initially, thecontrol server receives 830 a sequence of operations for a user requestto start playback of particular media content on a particular playbackdevice associated with a user identification. The control serverperforms 832 a query on a metadata aggregation database and retrievesthe pointer to the location of the media content along with relevantmetadata (e.g., location of media content, ownership of the mediacontent, etc). The control server checks whether the content fits theplayback device (e.g., device compatibility for a H.264 video stream).If the content does not fit the playback device, the control serverchanges 834 the status of the playback device item in Play functionalinterface to “unavailable”. Otherwise, the control server retrieves 836the reference to the control interface of the specified playback device.In an alternate embodiment, the control server may try to execute a‘transcoding” logic that translates the content format to fit theplayback device. The control server issues 838 a start playback responsethrough an application programming interface (API) on the controlinterface of the playback device and receives a new state informationform the control interface (e.g., “in play”). In response to the stateis ok (i.e., the playback device can be successfully started), thecontrol server selects 840 a color and changes the status of theplayback device item in Play functional interface. The control serverfurther makes 844 the content item the “current” item in Plug interfaceand changes the status of the content item in Pick and Plug interfaces.In response to the state is not ok, the control server restarts 842 theplayback device, e.g., reissue all starting sequence for the device.

FIG. 8C illustrates a process of a control server in response to a usersearch for media content request in accordance with one embodiment.Initially, the control server receives 850 a sequence of operations for“search for content” request. The requested content may be theaudiovisual data of a movie, TV show, or Internet search result, etc.The request includes a set of sources to search in, a set of searchfilters and a user identification. For each content source, the controlserver checks whether the source is aggregated locally. In response tolocal storage, the control server performs 845 a query on the metadatastored database. In response to non-local storage, the control serverissues 852 a search request to the relevant content aggregationservices. The control server merges 856 the media content search resultinto a comprehensive result set and applies the relevant bookkeepingfiltering for availability of particular media content. The controlserver further applies 858 relevant user filters (such as ratings,permissions, etc.) to the media content search result, and updates 860the user's Media functional interface with the set of the relevant mediacontent items.

To further explain user interactions with a plurality of functionalinterfaces to establish a logic relationship among two or morefunctional interfaces via a control server illustrated in FIG. 7, FIG.8A, FIG. 8B and FIG. 8C, exemplary processing results of the userinteractions are presented with FIG. 4A, FIG. 4B and FIG. 4C. For easeof discussion, the wireless media player 173 FIG. 1 is used toillustrate the control point device and the media server 177 of FIG. 1functions as the control server described in FIG. 8A-8C. The screen ofthe wireless media player 173 illustrates the virtual porthole describedin FIG. 4A-4C.

FIG. 4A illustrates a virtual porthole that displays Source P251, SearchP252 and Media P253 functional interfaces after user interactions. InFIG. 4A, for example, a relationship is established among Netflix P271,abc.com P272 and iTunes P274 in Source interface P251 (i.e., the shadedblocks of P271, P272 and P274) and Search interface P252 by way of auser selecting the related icons for each item. Once the relationship isestablished, a user may use the search filter by selecting, for example,the “Go” button P277 to search sources Netflix P271, abc.com P272 andiTunes P274 for a particular content. For example, the user may enterthe word “Lost” in a text box P276 that includes the word “Lost” in itstitle to retrieve videos from a media server (e.g., the media server 177of FIG. 1). As shown, the search results may be displayed in Mediainterface by, for example, displaying the title of the videos that meetthe search criteria. The user may then select content from Mediainterface, preview it in the preview functional interface P254, Move itto Pick functional interface for a later view and then later assign itto a media playback device in network environment 150 for playback.

In response to a user request, the control point device logic sends theuser request along with necessary data (e.g., user authentication data)to the control server for further processing. For example, if a userselects the sources: Netflix P271, abc.com P272 and iTunes P274 fromMedia sources functional interface “Source” P251 to search for videosincluding the word “Lost” P276 with other search filters P275 andselects the “Go” button P277, the control point device logic sends thecontrol server the a user request comprising the sequence of aboveoperations and pointers to Source functional interface P251 and Searchinterface P252. Upon receiving the information, the control serversearches the media sources (e.g., laptop PC 171, Internet 125) asfurther described in one optional implementation in FIG. 8D, in localcontent metadata databases and in remote content services for videocontent including the word “lost” in the title. Once the search iscompleted, the control server updates information stored for Mediafunctional interface with the search results and forwards updates forall three functional interfaces to the control point device portholeService P251, Search P252 and Media P253.

FIG. 4B illustrates a virtual porthole that displays Media P253, PreviewP254 and Pick P255 functional interfaces after user interactions. Inresponse to a user navigation action to move the virtual porthole 210,the control point device receives information to be included within anew subset of functional interfaces from the control server, such as thetop 4 content items in the Pick functional interface P255. The controlpoint device then displays these functional interfaces in the virtualporthole 210 using the respective information. The user can select acontent item from Media functional interface, such as “Lost Season 4”P264 for preview (i.e., the shaded block P264). Once selected, thecontrol point device logic sends the control server logic, the requestand pointers to Media functional interface P253 and Preview interfaceP254. Upon receiving the information, the control server allocates theinformation for that content, (e.g. a pointer to a preview video andother textual metadata), updates information for the user stored inPreview functional interface P254 and forwards updates for Previewfunctional interface to the control point device porthole. The controlpoint logic receives this information to display for example, the listof episodes in area P266 and the metadata information in area p267, bothrepresenting information stored in Preview functional interface. Theuser can select the content of the whole season and drag it into Pickfunctional interface P255 for a later use (i.e., the shaded block P233).In this case, the control device logic sends the request and the set ofthe two functional interfaces, Preview and Pick, to the control server.The control server updates Pick functional interface and returns anupdate to the control point logic.

As described above, if the user performs a navigation-related action,the virtual porthole is moved in a first direction according to apredefined configuration of the functional interfaces 200. If thefunctional interfaces 200 are arranged in a linear arrangement, thevirtual porthole may be moved in first and second directions (e.g., tothe left or to the right using navigation buttons P214, P215). Forexample, if the user navigates to the right in the linear arrangement,the virtual porthole on the control point device screen presentsfunctional interfaces Media P253, Preview P254 and Pick P255, instead ofSource P251, Search P252 and Media P253.

In some cases, a user action performed using the set of functionalinterfaces may automatically cause the virtual porthole to be moved in acertain direction. For example, in a virtual porthole that can displayonly one functional interface, if a user selects content from onefunctional interface, the control point may cause the virtual portholeto automatically provide a preview of the content by another functionalinterface in the virtual porthole.

FIG. 4C illustrates a virtual porthole that displays Pick, Plug and Playfunctional interfaces after user interactions. The Pick interface may bepopulated, for example, by way of a user dragging and dropping a titlefrom Media or Preview functional interfaces as described before. Pickinterface may alternatively be populated by way of automatic updates ofavailable content on the server side and provide a list of content itemsavailable from different sources, such as recommendations from friends,available broadcast channels, etc. for a later use. A user may selectmedia content (e.g., the shaded block “Channel 5”) from Pick interfaceby interacting with the virtual porthole through user input optionsprovided by the control point.

The user may connect or establish a logical relationship between theselected media (e.g., Channel 5) from Pick interface and Plug interfaceby, for example, selecting that content item, by pressing that mediaitem associated button P245, by selecting an icon associated with theselected content, by way of a drag and drop action, or other interactivemeans. Once the desired relationship or connection is establishedbetween content in Pick interface and Plug interface, Plug interface maydisplay the content in a media display area (e.g., window P236) of Plugfunctional interface of the virtual porthole.

In some embodiments, the user may, for example, select Channel 5 fromPick interface and either preview it in the display area of the Pluginterface, or connect the selected content directly (e.g. forconvenience) to a particular media device (e.g., the shaded block“Living Room TV” P238) in the network environment 150 to cause theselected media player to play the episode on the selected media device.For example, when “dragged” directly into Play functional interface, thecontrol point device logic sends the control server a sequence ofoperations in form of a user request as if the user selected the contentitem P232 for preview in Plug functional interface and immediatelyselected for viewing on the Living room TV P238. The control server, inone implementation, checks the content and the playback device forcompatibility and starts a playback operation on the playback device ifit is compatible, updates Plug functional interface with the content,and displays status change information in Play interface.

In some embodiments, if the selected media (e.g., Channel 5) issubdivided into several sub-contents (e.g., “Lost Season 4” may have 18recorded episodes), the Plug interface may display a list of thesub-content for user selection in the display area P236. The user may,for example, select Episode 01 from Plug interface and preview it in thesame display area, or connect the selected episode to a particular mediadevice (e.g., the Living Room TV P238) in the network environment 150 tocause the selected media player to play the episode on the selectedmedia device. Plug interface may also be implemented to provideadditional options P237 (e.g., “Record” button P242 and “More” buttonP243) for viewing even more information or, for example, recording acontent being played.

As illustrated in FIG. 4C, additional information about a selectedcontent may be presented in the Plug functional interface in the form ofan option list o that provides a user with one or more options to learnabout the production of the content, demographics of the viewers, oreven purchasing related items over the Internet. Accordingly, dependingon implementation, Plug interface may provide lists and sub-lists for avariety of possible options and sub-menus for a user in relation tomedia content selected from Pick interface.

Referring now to FIG. 8D, FIG. 8D illustrates a process of a controlserver in response to a user playback device discovery request inaccordance with one embodiment. Other embodiments perform differentand/or additional steps than the ones described here. For example, thecontrol server may automatically perform playback device discoveryperiodically without a user request. Moreover, other embodiments performthe steps in different orders.

Initially, the control server receives a “playback device discovery”request and broadcasts 870 the request to all playback devices in thenetwork environment 150. For each playback device that the controlserver connects, the control server gets 872 an authentication requestand performs authentication on the playback device. If theauthentication is successfully performed, the control server sends 874the authenticated playback device an “authentication successful” flagand opens a communication channel with the playback device. The controlserver receives 876 from the playback device a set of parametersincluding unique identification of the playback device. If the playbackdevice is a pre-known device (e.g., has already registered with thesystem), the control server retrieves 878 all information from a devicemanagement database about the playback device. In response to theplayback device is a newly discovered device, the control serverretrieves 880 all information from the playback device itself (e.g., themanufacturer pre-settings), and updates 882 the device managementdatabase with the information obtained from the playback device. Thecontrol server further updates 884 Discover functional interfaceaccordingly. In an alternate embodiment, the control server mayperiodically issue a discovery for playback devices request without anyspecific request.

FIG. 4D illustrates a virtual porthole that displays Play P257, Set P258and Discovered P259 functional interfaces after user interactions with acontrol server illustrated in FIG. 8D. Play interface P257 provides apersonalized sub-list of playback devices available for playing content.A user may select a playback device (e.g., Living Room TV P238) from thePlay functional interface by interacting with the virtual portholethrough user input options provided by the control point device. A usercan select a playback device (e.g., D-link 520) listed in Discoveredfunctional interface. Once a playback device is selected, thepersonalize Set interface provides settings for configuring the mediadevice in the network environment 150 associated with the selectedplayback device, e.g. a display icon P281, a description text P282, or aparental control indication P284. Set functional interface may includemuch more information for each playback device, and the user cannavigate inside Set functional interface P258 to view or interact with aselected playback device through a “More” button P286 or an “Add” buttonP285.

Discovered interface P259 provides a list of media devices automaticallydiscovered in the network environment 150, for example using the UPnPdiscovery mechanism. Other embodiments can use other standard orproprietary discovery mechanisms. After initialization of the controlserver (e.g. NAS 181 in the network environment 150), the control serverbroadcasts a user “playback device discovery” request to all playbackdevices in the network environment 150, and accepts identifications foreach responding playback device. For each discovered device, if thedevice is has already registered to the system, the control serverretrieves this information from the device management database.Otherwise, the control server retrieves the information from the deviceitself (e.g. the manufacturer pre-settings) and updates Discoveredfunctional interface.

Though the functional interfaces (e.g., Play, Plug, Set, Discovered,etc) described above are used to control media devices, in differentembodiments, the functional interfaces may be used to control non-mediadevices or a combination of media and non-media devices. For example,the functional interfaces may be implemented to control electronicappliances in a smart home or machinery in a commercial or industrialsetting.

The disclosed embodiments beneficially allow for a user interface deviceand methods that efficiently enhance consumer experience of mediacontent on a variety of playback devices. A GUI-based media controllerprovides an intuitive visualization of media content navigation withunified media devices controlling. The GUI-based controller allows auser to access the variety of media content from heterogeneous mediacontent providers and to allow the user to navigate the media contentvia a wide set of media devices.

Some portions of above description describe the embodiments in terms ofalgorithmic descriptions and processes, e.g., as with the descriptionwithin FIGS. 7-8D. These operations (e.g., the processes describedabove), while described functionally, computationally, or logically, areunderstood to be implemented by computer programs or equivalentelectrical circuits, microcode, or the like. The computer programs aretypically embedded as instructions that can be stored on a tangiblecomputer readable storage medium (e.g., flash drive disk, or memory) andare executable by a processor, for example, as described in FIG. 5.Furthermore, it has also proven convenient at times, to refer to thesearrangements of operations as modules, without loss of generality. Thedescribed operations and their associated modules may be embodied insoftware, firmware, hardware, or any combinations thereof.

As used herein any reference to “one embodiment” or “an embodiment”means that a particular element, feature, structure, or characteristicdescribed in connection with the embodiment is included in at least oneembodiment. The appearances of the phrase “in one embodiment” in variousplaces in the specification are not necessarily all referring to thesame embodiment.

Some embodiments may be described using the expression “coupled” and“connected” along with their derivatives. It should be understood thatthese terms are not intended as synonyms for each other. For example,some embodiments may be described using the term “connected” to indicatethat two or more elements are in direct physical or electrical contactwith each other. In another example, some embodiments may be describedusing the term “coupled” to indicate that two or more elements are indirect physical or electrical contact. The term “coupled,” however, mayalso mean that two or more elements are not in direct contact with eachother, but yet still co-operate or interact with each other. Theembodiments are not limited in this context.

As used herein, the terms “comprises,” “comprising,” “includes,”“including,” “has,” “having” or any other variation thereof, areintended to cover a non-exclusive inclusion. For example, a process,method, article, or apparatus that comprises a list of elements is notnecessarily limited to only those elements but may include otherelements not expressly listed or inherent to such process, method,article, or apparatus. Further, unless expressly stated to the contrary,“or” refers to an inclusive or and not to an exclusive or. For example,a condition A or B is satisfied by any one of the following: A is true(or present) and B is false (or not present), A is false (or notpresent) and B is true (or present), and both A and B are true (orpresent).

In addition, use of the “a” or “an” are employed to describe elementsand components of the embodiments herein. This is done merely forconvenience and to give a general sense of the invention. Thisdescription should be read to include one or at least one and thesingular also includes the plural unless it is obvious that it is meantotherwise.

Upon reading this disclosure, those of skill in the art will appreciatestill additional alternative structural and functional designs for asystem and a process for controlling a plurality of electronic devicesconnected through a network via a unified control point. Thus, whileparticular embodiments and applications have been illustrated anddescribed, it is to be understood that the disclosed embodiments are notlimited to the precise construction and components disclosed herein.Various modifications, changes and variations, which will be apparent tothose skilled in the art, may be made in the arrangement, operation anddetails of the method and apparatus disclosed herein without departingfrom the spirit and scope defined in the appended claims.

1. A computer implemented method for controlling one or more mediaobjects connected to a network through a control point, the methodcomprising: identifying a user of a plurality of users of the controlpoint, wherein the control point comprises a view area configured todisplay one or more predefined functional interfaces according to apredefined configuration, and each functional interface of the pluralityof the functional interfaces is configured to control one or more mediaobjects associated with the functional interface, and is furtherconfigured to interact with its immediate neighboring functionalinterfaces according to the predefined configuration; transmitting auser profile associated with the identified user of the plurality of theusers and one or more display parameters of a screen of the controlpoint to a control server; receiving a first subset of the plurality ofthe predefined functional interfaces based on the user profile and thedisplay parameters of the screen of the control point, wherein eachfunctional interface of the first subset of the plurality of thepredefined functional interfaces comprises one or more user menus;providing for display the first subset of a plurality of predefinedfunctional interfaces on the view area according to the predefinedconfiguration and the display parameters of the screen of the controlpoint; detecting user selection of a menu item within the first subsetof the plurality of predefined functional interfaces; transmitting auser request to a control server in response to the selected menu item,wherein the user request comprises one or more commands to control themedia object associated with the selected menu; and receiving from thecontrol server a response to the user request, wherein the responsecorresponds to updating at least one menu item of the first subset ofthe predefined functional interfaces or displaying a second subset ofthe plurality of predefined functional interfaces on the view area. 2.The method of claim 1, wherein the predefined configuration comprises alinear arrangement of the functional interfaces to be displayed on thescreen of the control point, and the functional interfaces are navigablein either a first linear direction or a second linear direction, whereina user selection of a menu item from a functional interface transmits asignal to update operations of the media objects associated with theimmediate neighboring functional interfaces in one of the lineardirection.
 3. The method of claim 1, wherein the predefinedconfiguration is a two-dimensional arrangement of the functionalinterfaces to be displayed on the screen of the control point, and thefunctional interfaces are navigable within a first axis and a secondaxis of a two-dimensional plane, wherein a user selection of a menu itemfrom a functional interface transmits a signal to update operations ofthe media objects associated with the immediate neighboring functionalinterfaces within the first axis and the second axis.
 4. The method ofclaim 1, wherein the predefined configuration is a three-dimensionalarrangement of the functional interfaces to be displayed on the screenof the control point, and the functional interfaces are navigable withina first axis, a second axis, a third axis of a three-dimensional space,or within two of the first axis, the second axis and the third axis,wherein a user selection of a menu item from a functional interfacetransmits a signal to update operations of the media objects associatedwith the immediate neighboring functional interfaces in thethree-dimensional space.
 5. The method of claim 1, wherein the displayparameters of the screen of the control point are determined based on atleast one of a size of the screen, a resolution of the screen and aprocessing capability of the control point.
 6. A computer implementedmethod for controlling one or more media objects connected to a networkthrough a control point, the method comprising: providing for display afirst subset of a plurality of predefined functional interfaces on aview area of the control point according to a predefined configurationand one or more display parameters of a screen of the control point,wherein each functional interface of the first subset of the pluralityof the predefined functional interfaces comprises one or more usermenus, and each of the functional interface is configured to control atleast one media object associated with the functional interface, and isfurther configured to interact with its immediate neighboring functionalinterfaces according to the predefined configuration; detecting userselection of a menu item within the first subset of the plurality ofpredefined functional interfaces; transmitting a user request to acontrol server in response to the selected menu item, wherein the userrequest comprises one or more commands to control the media objectassociated with the selected menu item; and receiving from the controlserver a response to the user request, wherein the response correspondsto updating at least one menu item of the first subset of the predefinedfunctional interfaces or displaying a second subset of the plurality ofpredefined functional interfaces on the view area of the control point.7. The method of claim 6, wherein the configuration to display the firstsubset of the functional interface comprises a linear arrangement of thefunctional interfaces on the screen of the control point, and the firstsubset of the functional interfaces is navigable in either a firstlinear direction or a second linear direction, wherein a user selectionof a menu item from a functional interface transmits a signal to updateoperations of the media objects associated with the immediateneighboring functional interfaces in one of the linear direction.
 8. Themethod of claim 6, wherein the configuration to display the first subsetof the functional interface is a two-dimensional arrangement of thefunctional interfaces on the screen of the control point, and the firstsubset of the functional interfaces is navigable within a first axis anda second axis of a two-dimensional plane, wherein a user selection of amenu item from a functional interface transmits a signal to updateoperations of the media objects associated with the immediateneighboring functional interfaces within the first axis and the secondaxis.
 9. The method of claim 6, wherein the configuration to display thefirst subset of the functional interface is a three-dimensionalarrangement of the functional interfaces on the screen of the controlpoint, and the first subset of the functional interfaces is navigablewithin a first axis, a second axis, a third axis of a three-dimensionalspace, or within tow of the first axis, the second axis and the thirdaxis, wherein a user selection of a menu item from a functionalinterface transmits a signal to update operations of the media objectsassociated with the immediate neighboring functional interfaces in thethree-dimensional space.
 10. The method of claim 6, wherein the userrequest is a navigation request, the navigation request corresponding tomovement from one functional interface to an adjacent functionalinterface of the first subset of the functional interface.
 11. Themethod of claim 6, wherein the user request is a content search request,the content search request comprising at least one of a plurality ofresources to be searched, a set of search filters and a useridentification.
 12. The method of claim 6, wherein the user request is aplayback device discovery request, the playback device discovery requestcomprising at least one of device parameters and a device identificationassociated with each playback device.
 13. The method of claim 6, furthercomprising transmitting initialization information to the controlserver, wherein the initialization information comprises at least one ofdisplay parameters of the screen of the control point and a user profileassociated with an identified user of a plurality of the users.
 14. Themethod of claim 13, wherein the display parameters of the screen of thecontrol point is based on at least one of a size of the screen, aresolution of the screen and a processing capability of the controlpoint.
 15. The method of claim 6, wherein the first subset of thefunctional interface is selected from the plurality of the functionalinterfaces based on a predefined user profile.
 17. A computer-readablemedium comprising executable instructions for generating a userinterface device on a display for controlling one or more of devicesconnected to a network, the computer-readable medium comprisingexecutable instructions for: displaying a first subset of a plurality ofpredefined functional interfaces on a view area of a display unitaccording to a predefined configuration and one or more displayparameters of a screen of the display unit, wherein each functionalinterface of the first subset of the plurality of the predefinedfunctional interfaces comprises one or more user menus, and each of thefunctional interface is configured to control at least one media objectassociated with the functional interface, and is further configured tointeract with its immediate neighboring functional interfaces accordingto the predefined configuration; and detecting user selection of a menuitem within the first subset of the plurality of predefined functionalinterfaces; transmitting a user request to a control server in responseto the selected menu item, wherein the user request comprises one ormore commands to control the devices associated with the selected menuitem; and receive a response to the user request from the controlserver, wherein the response corresponds to updating at least one menuitem of the first subset of the predefined functional interfaces ordisplaying a second subset of the plurality of predefined functionalinterfaces on the view area of the display unit.
 18. Thecomputer-readable medium of claim 17, wherein the configuration todisplay the first subset of the functional interface is a lineararrangement of the functional interfaces on the screen of the displayunit, and the subset of the functional interfaces is navigable within afirst linear axis and a second linear axis, wherein a user selection ofa menu item from a functional interface transmits a signal to updateoperations of the media objects associated with the immediateneighboring functional interfaces in one of the linear direction. 19.The computer-readable medium of claim 17, wherein the configuration todisplay the first subset of the functional interface is atwo-dimensional arrangement of the functional interfaces on the screenof the display unit, and the first subset of the functional interfacesis navigable within a first axis and a second axis in a two-dimensionalplane, wherein a user selection of a menu item from a functionalinterface transmits a signal to update operations of the media objectsassociated with the immediate neighboring functional interfaces withinthe first axis and the second axis.
 20. The computer-readable medium ofclaim 17, wherein the configuration to display the first subset of thefunctional interface is a three-dimensional arrangement of thefunctional interfaces on the screen of the display unit, and the firstsubset of the functional interfaces is navigable within a first axis, asecond axis, a third axis in a three-dimensional space, or within tow ofthe first axis, the second axis and the third axis, wherein a userselection of a menu item from a functional interface transmits a signalto update operations of the media objects associated with the immediateneighboring functional interfaces in the three-dimensional space. 21.The computer-readable medium of claim 17, wherein the user request is anavigation request, the navigation request corresponding to movementfrom one functional interface to an adjacent functional interface of thesubset of the functional interface.
 22. The computer-readable medium ofclaim 17, wherein the user request is a content search request, thecontent search request comprising at least one of a plurality ofresources to be searched, a set of search filters and a useridentification.
 23. The computer-readable medium of claim 17, whereinthe user request is a playback device discovery request, the playbackdevice discovery request comprising at least one of a set of deviceparameters and a device identification associated with each playbackdevice.
 24. The computer-readable medium of claim 17, wherein therequest handler module is further configured to transmit initializationinformation to the control server, wherein the initializationinformation comprises at least one of display parameters of the screenof the control point and a user profile associated with an identifieduser of a plurality of the users.
 25. The computer-readable medium ofclaim 24, wherein the display parameters of the screen of the controlpoint is based on at least one of a size of the screen, a resolution ofthe screen and a processing capability of the control point.